Cash register, indicator, and recorder.



J. F. PARKER.

CASH REGISTER, INDICATOR, AND RECORDER. AP-PLIOATION 21mm ABB..16, 1908.

91 3 ,549. Patented Feb. 23, 1909.

11 SHBETSBHEET 1.

Witnesses v glmveut @W LTQWER MW 9354 Gimme? J. F. PARKER.

CASH REGISTER, INDICATOR, AND RECORDER. APPLICATION FILED APR.16.1908.

91 3,549. Patented Feb. 23, 1909.

11 SHEETS-SHEET 2.

g I INVENTOI? .a a M TJDHN F PARKER J. F. PARKER. GASH REGISTER, INDICATOR, AND RECORDER. APPLIUATION FILED APR.16, 1908.

91 3,549, Patented Feb. 23, 1909.

11 SHEETS-SHEET 3.

Witneobgw flan F. PAHKEH' m M J. F. PARKER.

' GASH REGISTER, INDICATOR, AND RECORDER. APPLICATION FILED APR. 16, 1908.

91 3,549, Patented Feb. 23, 1909.

7 11 SHEETS-SHEET 4-.

wg/Essw I INVENTOI? LIEIHN F. PARKER A TTOHNE Y 8' J. F. PARKER.

CASH REGISTER, INDICATOR, AND RECORDER. APPLIOATION FILED APR.16, 1908.

\ \\Y Tm 4' 7? illillwv 'm Patented Feb. 23, 1909.

' 11 SHEETSSH-EET 5- zoom ii tIm-IN Ff PARKER 331 Gites (May.

J. P. PARKER.

CASH REGISTER, INDICATOR, AND RECORDER.

On 8 mm H ,w W N %Q WE M, .hmm NK F GE R A Fm A m P m .W. W F a P m a D m a m R P A E L 1 I N O 1 T A o I L P A 9 S 4 W 5 3 6 1 W v 9 M@ n 1 b b J. P. PARKER. CASH REGISTER, INDICATOR, AND RECORDER. APPLICATION FILED APR. 16, 190B.

91 3,549, Patented Feb. 23, 1909.

11 SHEETS-SHEET 7'.

'ummnum llllll W/TNESSES I lNVENTOH TEIHN F PAH KER A TTOHNEYS J.P.PARKER. CASH REGISTEE, INDICATOR, AND RECORDER.

APPLICATION FILED APR. 16, 1908.

" Patented Feb. 23, 1909.

ll SHEETS-SHEET 8.

nvvawron LTmHN PARKER ATTORNEYS J. P. PARKER.

CASH REGISTER, INDICATOR, AND 111100313311.

APPLICATION FILED APR. 16, 1908.

913,549. Patented Feb. 23, 1909.

11 SHEETS-SHEET 9.

W/T E8855 INVENTUI? @947 LTUHN F. PARKER awwee BY 714WV A TTORNE Y8 J. P. PARKER. CASH REGISTER, INDICATOR, AND RECORDER.

APPLIOATION FILED APR. 16, 1908. 91 3,549. Patented Feb. 23, 1909.

11 SHEETS-SHEET 10.

I INVENTOH 11mm F. PARKER A TTOHNE YS UNITED STATES PATENT, OFFICE.

JOHN F. PARKER, or KANSAS CITY, Mrs-sonar.

Applicationfiled April 1a, 1902;. sma1no.s27',sao.

To all whom it may concern:

Be it known that 1, JOHN. F. PARKER, a

citizen of the United States, residing at- -Kansas City, in thecounty of Jackson and State ofMissouri, have invented an Improvement in Cash Registers, Indicators, and Recorders, of which the following is a specification.

My invention is an improvement in cash registers of a type in WhlCh are employed 'multiple receptacles or money tills'and a series-of vertical banks of keys bearing numbers and characters corresponding to others inscribed on registering and printing wheels also slidable'indicating tablets that are all movable and adapted to register and display or indicate and. also print thea'mount (if a sale, the initial of the clerkfand the char acter of the transaction.

My invention includes novel and improved I features as hereinafter set forth, inwhich the following may be indicated.

One of the primary'objects in a cash-regis-' ter is to attract the pu'rchasers attention to the amount of his purchase as registered and indicated by the machine when manipulated by the salesman." In accomplishing this object, the amount as registeredand indicated I is exhibited from four sides of the machine so that it is practically visible from all portions of the salesroom. .The attention of the purchaser and others is also attracted to .the amount indicated, by employment of a flash, or. intermittent, light within the register. 'In other words, a lamp is illuminated intermittently, the number of illuminations and length of eachbeing controlled by mechanism which willbepresent'ly described; The characters inscribed on the sliding tablets if outlined on ground or frosted glass with colored back, would be pure white normally, but colored whenthe light is turned .on.

Another improvement and novel feature of my machine is its capacity tor-indicating and registering any amount from one cent registered by the setting otone key and the Specification of Lettera'Patent casn nnersrnammo'a'roa, AND nnoommn.

Patented res.- as, 1909.

whereas in other machines of this class it is ordinarily necessary to operate twoke s. No key can be operated, nor can the last mdication be canceled, while the cover .of any till' is open.- In order to operate the-ma chine the salesman must first ress his' own initial key, and in doing this e necessarily operates mechanism by which the last Indication or sale is canceled, and the indicating tablets are removed from view until I subsequent operation,ofcertainmechanism,

exposed a ain by the opening of a till and through t e act on of a shutter as hereinafter described. The remaining keys are released and the cover of the salesmans particular till unlocked at the same time. To

lfurtheroperate the mechanism and complete 9. a transaction thesalesman after rotatmg his initial'key selects and rotates the proper keys which determinethe amount and characters that will be indicated, re istered, and

printed. He then opens and c oses his till cover which operates mechanism that com-- pletes-the entire operation, and without the aid of a lever or crank handle usually used in'this class of registers. vAny one of the. till covers must. be. completel o ened orcloscd each time; .in otherwor s, t e operator is compelled to completely-open or close,

since, when the .till cover is artly opened or closed it cannot return until it has gone the full distance Anotherimprovement and novel feature of my machine is the rota-table amount or setting keys which I. use instead offthe dcpre'ssible keys so commonly employed in this class of register. 7 I, y

A further improvement consists in print. ing the amounts as indicated and. registered on duplicate paper strips drawn oiftogether from separate rolls. ,My particular im .provement in this respect consists in arran ing .or exposin a part of the paper whi e passing over'a at surface so that any memo-.

randum maybe written 'on the top sheet, and such. memorandum will beduplicated on the lower one by means of an interposed carbon ribbon, or equivalent. In the act of closing the till cover which has been opened by a particular salesman, the upper strip passes out of the register and may then be detached, while the lowerone passes into a receptacle within the register and is wound around a cylinder for future reference, Au-

tographic memoranda may also be inscribed on the paper strips and thus duplicated, so

30 perspective view of the toothed segmental that my machine combines the functions of a cash indicator and an autographic register. The register, through the medium of the same mechanism required for indicating and registering different transactions, prints simultaneously the following five classes of data, the date, the consecutive number, an initial assignedto each clerk, the character of the transaction, and the: amount received by the clerk or salesman. The register while indicating and printing also adds the different amountsreceivedby the salesman. The

till is so constructed that difierentreceptacles or compartments are provided so that coin may be kept separate from bills etc.

' The opening of any one till cover locks the remaining ones, and, as stated before, it must be closed before one of the others can be opened, it being this practicable to open but oneat' a time. A bell alarm is provided for each till, and the several alarms have'diiferent sounds. They are operated along with several visual flash signals above referredto.

In the drawings F lgure 1 is a perspective view. of my improved machine. Fig. 2 is a front elevation of certain portions. of the apparatus, the casing-being in section. Fig.

3 is a vertical section on the line 3-3 Fig. 2,

including, however, the means for operating the visual and audible signals. Fig. 4 is a ever forming part ofthe key locking mechanism, the same being shown engaged with one'of the nine sets of key locking bars.

Fig. 5 is a sectional elevation, it being. mainly in the same .plane with the section shown in Fig.3, but the key locking mechanism being shown in the released. position,

and the shutter inclosing amount-indicating bar's'bemg shown drawn the tablets or down, and the ratchet bars operatively connected therewith being shown disengaged from the pin carrying disks by which the tablets are raised. F g. 6 is a central vertical transverse section of the machine, on

. the line 6-6 Fig. 1. Figs. 7, 8 and 9 are views of portions of the registering mechanism. Fig. 10 is a face view of one ofthe four sets of adding and registering mechanism. Fig. 11 is a section mainly on the line 11-11 of Fig. 12. Fig. 12 is a sectional view-illustrating particularly the means for locking and releasing the till covers and I other connected'mechanism. Fig. 13 is an edge view of oneof the several double pin 1 carrying disks constituting a principal part i of the mechanism for raising thetablets of amount-indicating bars, together with a rotatable lever arm forengaglngthepins when projected. Fig-14 isan edge view of a portion of such pin carrying double disk show- 1 ing one of the pins projected by the operationlpf one of the rotatable setting" keys. Fig. 15 is a section on the line 15- -15 of Fig. 13, showing in face view, adisk provided on the line 1919 of Fig. 6. Fig. 19 is a perspective view of a part of the mechanism shown in Fi 19. Fig. 19? is a face view of the wings'o the keys. Fig. 20 is a transverse sect-ion on the line 2020 of Fig. 19. Fig. 21 is a horizontal section on the line 21-21 of Fig. 19. Fig. .22 is a perspective view of one of the rotatable pin setting keys. 7

Fig. 23 is another view of a portion of another of the pin setting keys. Fig. 2 1 is a sectional view showing the printing mechanism. Fig. 25 is a section'on the line 2525 of Fig. 24. Fig. 26 is a plan view of they means for operatively connecting the indicating with the printing mechanism, the I same consisting of a series of concentric shafts, each PI'OVldGdWlth lever arms by which it is connected with the respective indicating and printing. mechanism. Fig. 27

is an enlarged section on the line 2727 sub- 1 stantially of Fig. 19. Fig. 28 is a diagrammatic view of the electric circuit connecting the visual and audible signalswith the registe'ring mechanism. Fig. 29 is an enlarged vertical section of the machine, substantially on the line 29 29 'of Fig. 1 and showing theprinting mechanism. Fig. 29 is a detail view of a part of the printing mechanism. Fig. 30 is an enlarged vertical section on the line 30-30 of. Fig. 29. Fig. 31 is a detail section illustrating the arrangement of one of the two inking strips or ribbons. Fig. 32 is a view illustrating a portion of the means for winding on the printed strip. Fig. 32 is a cross section on .the line 32-32 of Fig. 32.

As indicated in Fig. 1, the machine has an oblong base with a rounded front and a narrower central portion which is extended to the required height. The machine as here indicated is provided with three tills, which may be indicated by A, B, 0. Each till has a semi-circular cover, which, as shown in Fig. 6, is mounted u on a slidable and rotatable shaft 1 exten ing lengthwise of the machine casing, and is' thus adapted to be swung down into the positio'nindicated by dotted lines in Fig. 6, in which operation the shaft is rotated and in turn operates the entire indicating, registering and printing mechanism. .The shaft is provided with lugs so arranged that they are adapted-- see Fig. 12t o engage with,- and disengage other mechanism by which the tablets or sliding bars inscribed with numbers are pushed'up for indicating the amount of a particular sale, also by which registering and printing mechanism is operated, as will ferred to.

be further described. The central raised portion and curved front of the machine is occupied by banks of keys all of which are provided with lateral arms or wings -for use in operating. them. These keys are oscillatable', or rotatable a part of the revolution. The three keys on the left, marked A, B, 0., correspond with and control the several till covers A, B, C, and other mechanism re- The keys'in the second or next column bear various indications, for example, Cash, Charge, Paid out) Received on account," etc. The next vertical row of keys is for dollars, and the two on the right are for cents. Therow on the right bears the digits from 1 to 9 inclusive, and the. adjoining row of cent keys have on the right wing, the numerals '10, 20, 30, 40, etc. 'up-to 90, and those on the left increase byfive from 15 to'95. The dollar keys bear on the right wings, numerals 1 to 9 inclusive,

thus increasing by one, and the wings on the 4 "left bear numerals from 10 to 90 inclusive,

increasing by- 10. 'By referring to Figs. 22

' and 23, it will be seen that'the shank 2 of each keyis provided with two lugs or cams 3, t, the same being for different uses, the inner ln s servin to pushout one of the pins 5, eld an carried by a rotatable double. disk 6 see Figs. 13 and 14. Thus the indication and registration of the amount of a saleis governed, and the outer lug 4:. serving to lock the key and hold them in. normal position until released by other mechanism, as will be further described.

In Figs-3, 5,12, the numeral 7 indicates a segmental -lever having nine radial teeth 8 and journaled on a square shaft 9 extending longitudinally of the casing. The teeth 8see Fig. 4,enter open slots 10 in bars 11, of which there are nine pairs, one of each pair being directly over or under the other. It is apparent that so long as the teeth are engaged with these bars in the manner shown in' Figs. 3 and 4, the bars cannot he slid lengthwise. As shown in'Fig. '20,"each pairof bars 11 engages the outer cams A of the keys 2, the cams projecting into-notches or open slots 12, in the bars. A spiral tension spring 13 is attached to the end of the upper bar of each set, and another similar spring H to the opposite end of the lower bar.v It is apparent that after the segmental lever 7 has released the bars 11, as shown in Fig.-

'. 5, the bars are slidable and hence permit the keys to rotate in either direction desired, the

keys returning to their normal position as soon as released by the finger through the action of the spiral springs. 13, 14. As shown in Fig. 3, the segment lever is locked with all the pairs of bars 11 and consequently all the money and character keys are locked. It is therefore obvious that the first operation, in order-to indicate a transaction and the amount of any sale, is the release of the keys, and for this purpose, the bars 11 must be first released from the segment lever 7as in Fig. 5. As shown in Fig. 12, the keys A, B, C, appropriated for useof three different salesmen, are providedwith-lever arms or elongated lugs 15 which are adapted to engage the teeth of a rack 16 forming an attachment of the segment leversee Figs. 4 and 12. This rack is extended out from the head of the lever and provided with three lateral teeth corresponding to the three lugs 15 of keys A, B, O. The extension 17 of the segment lever 7 on which rack 16is formed is slotted at 18 to receive the lower pairs of key locking bars 11, and has therefore no operative function. If now it be supposed that clerk A wishes to open the till, that is to say, the particular till marked by A and appropriated for his exclusive use, he will rotate the key A and thus cause the lug 15 attached to it to bear down upon the lowest of the three teeth on 95 the segmental rack 16, and the lever 7 will,

therefore, be rotated from the position shown in Fig. 3 to the position shown in Fig. .5.

In other words, the distance to which the.

segmental lever will be rotated against the tension of the spiral spring 19 attached to its inner end is about one-half the distance between two adjacent pairs of key-locking bars 11. Thus all the said bars will hereleased simultaneously, so that any of the money or character keys may be operated. The clerk A therefore proceeds to effect this registration or indication. It should be stated, however, that at the first, it being a cash transaction, he has operated the cash key as well as his own'lettered key. Suppose the amount of his sale is $20.53-see. Fig. 1 ;he willidepress the left wing of the second key in the third row, and also the right hand wing of the fifth key of the fourth row, and; the wingof the third key in the last row.

As shown in Fig. 12, it will be observed that in'addition to lugs 15, the keys A, B, p C, are provided with other shorter lugs 20, 12c 21, 22, respectively, which are adapted to cooperate with the forked lever 23 whose lower endis engaged with the pivot shaft 1 of the till covers A, B, C. When the key A is rotated, the short lugs 20 attached thereto will be in horizontal position, and hence will not throw the forked lever 23 to the right or left. Consequently,.the shaft 1 will-hot be willvmove the forked lever in one direction or the other, and consequently the shaft will-- when the clerk opens the till cover it will. rotate the shaft and in turn set in operation the gearing that operates other mechanism to indicate and register a sale, as will be presently described. It will be further seen in Fig. 12, that the lugs 26 and 27 are not engaged with the partitions :28 and 29- of till coversB and O and consequently rotation of the shaft could not be effected by opening such till covers. Besides, those particular till covers are locked by means of a sliding bar 30-see Fig. 12 which is mounted to slide on pins 31 projecting from fixed partitions 32 arranged vertically in the casing of the machine. This bar 30 has three open slots 33 arranged or distanced from each other so that when the partition of one till cover is disengaged, those of the other two till covers will be locked with it. This may be seen from the drawing, so that further description is unnecessary. The sliding bar 30 is connected by a'pendent curved arm 30 with the lower end of forked lever 23 which engages collars on the shaft 1. Thus the slide bar and shaft are shifted together endwise, and one engages as the other disengages the same till cover partition. In other words, when the bar releases a partition the shaft engages with it, and vice versa. 'Having now,. so,far as described, released all the money and character keys and. also the till cover A and the latter having beenopened to its fullest extent, the gearing 34, 35, 36.see Figs. 3 and 5, has been put into operation to efiect'other mechanism by which the sliding tablets or'inscribed bars 37. for indicating the amount received, are operated, that is to say, pushed up in the manner required to allow the proper numerals to be seen through the slots 38 in the four'sidesof the upper portion of the machine. Before describing this operation in detail, it should be pointed out that when the segment lever 7 is moved from locking position shown in' Fi 3, several other operations have taken p ace. Thus, when the lever is in such locking position, the gearing, which, as before intimated, controls the register and indicating mechanism proper, is locked or prevented from foperation by engagement of a spring dog 39 on the second gear 35 which engages a shoulder 40 formed on the: extended shank 7 a of the segmental lever.- By this arrangement, not only are the indicator and register proper locked, but the till covers are also locked. lVhen, however, the segmental lever 7 is o erated by any one of the keys A, B, C, an moved to the free position indicated in Fig. 5. the lever shank or extension 7 engagesa spring latch 41 and thus its shoulder 40 is carried out of engagement with the dog 39 of the intermediate gear 35 so that all the gearing is set free so far as this device is concerned. I

The gear 35 just referred to has another peripheral spring dog 42, which, as shown in Figs. 3 and 5, is adapted to strike upon and depress the free end of latch 41 when the gear rotates in direction of the arrow shown on the face of the same. It will be seenthat such depression will release the segment lever 7 from latch 41, so that it willbe returned by springs 19 to its normal position, Fig. 3, thus locking again all the money and character keys. .It is further apparent that this operation takes place when any till cover is opened, since the shaft lis then rotated and the gears consequently set in rotation also. '-The release and return of the segtablets or inscribed bars 37, 37 a are raised to indicate money amounts, etc. These bars or tablets are arranged on the four sides of a rectangle as indicated in Fig. 6; see also Figs. 3, 5 and 16. The money bars or tablets are indicated ,by 37, and the initial and character bars by 37 Thus on each side of the rectangular top portion of the casing four cash-indicating bars or tablets are arrangedside by side and slidable vertically so that the numbers thereon. may be seen through slots 38 in the four sides of the casing extension. The bars 37 a are similarly arranged and operated by the same means but they appear only on the longer sides ofthe rectangle. Each set of the four bars 37 ,that is to say bars of corresponding amounts, are connected by three rods 43 and one shorter rod 43 with slotted ratchet bars 44, and likewise the two sets of initial and character bars 37 are connected with the ratchet bars 44 by a rod 43 for the front bar and by a longer rod 43 for the rear pair, see Figs. 5, 6, 16, 17, and 18; The longer ends of such ratchet bars are provided with horizontal annular extensions, or foot portions 44, Whose arrangement will be understood from the figures just-referred to. The longitudinal slot of each bar receives two guide pins 45that project from the ends of horizontal arms 46 projecting from a bar 47 arranged I iLiSadapted to. swing in a vertical plane, for

the'purpose ofcarrying the said ratchet bars 44 into and out of engagement with slidable pins 5 forming attachments of the double disks6. The latter are mounted on hubs applied to the square shaft 9, as shown in Fig. 13. 'Itis apparent that the parts 47 and 4S constitute what may be termed a swinging frame and whose function, as already indicated, is to operate the ratchet bars as required to, operate the inscribed bars 37 and 37. In Figs. 3 and 6 such frame is in position to hold the ratchet bars 44 in engage ment with the disk pins 5, but in Fig. 5, the frame is shown retracted, or close to the backwall of the casing, and holds all the ratchet bars free from the disk pins. In Figs. 3 and 5,149 indicates a rod connecting the lower end. 7 a of the segment lever '1 with the bar 47 of the swinging frame. It is now obvious that when the ratchet bars are engaged' with the pins of the disks 6, as in Fig. 6, if the latter be rotated, the bars will be raised as required to bring different numerals thereon opposite the slots 38 of the upper casing extension, and thereby indicate to the purchaser, or other observer, the initial of thesalesman. the amount of a sale, or character of a transaction etc. As shown in Fig. 3, when the segment lever T is locked with the key-locking bars 11, the rod 49 draws the swinging frame 4748 into forward ordownward position required for locking the ratchet bars 44 with the disk" pins but when the segment lever is in the other or unlocked position, shown in Fig. 5,

the rod .49 holds the said frame and ratchet bars pushed back.

The first result of the rotation of gear 35 is to release the segment lever shank 7 thus drawing the ratchet bars 44 into engagement with the pins 5 as shown in Fig. 6, and they are held securely by a safety appliance hereinafter described, and this engagepaent takes alace before any of the disks 6 are rotated. t is to be understood, however, that Fig. 3 shows the position of the segment lever 7 before any of the'three initial keys have been operated and also its position while any till is open. A-till cover being opened, and it being connected with the shaft- 1, and the latter engaged with. the lowest gear 34, all tlie ge'ars will be rotated simultaneously for the purpose, and with the result, that the square shaft 9 will be rotated, and this will effect the required movement of the levers or lever arms 50,. see Figs. 13, 14 and 15. In the operation of the keys indicating the amounts etc., their lugs 3, 3, 3 and 3, see Figs. 14, 19, 20, 21, 22 and 23, have projected certain pins from the side of the double disks 6; see especially Fig. 14, where this operation is'particularly illustrated. It will now be seen that if the square shaft 9 be rotated through the medium'of the gearing and opening of thetill cover as already stated, all the lever arms 50 will be swung in the spaces between the several fixed disks 53 and in so doing they will come in contact with any pins 5 that.

it is obvious that both noticeable on the left in Fig. 15, and dotted lines in Fig. 6, to the position indicated by dotted lines in Fig. 15.

It will be observed, see Fig. 6, that during the forward movement of the lever arms 50 through the rotation of'the gears 34, 35, 36, that said lever arms swing and make about one third their maximum movement before they come in contact with any pins that may be projected, which allows the operation of other mechanism to take place, viz: the bringing into engagement, and locking of the ratchet bars 44 with the pins 5, before anyof the double disks 6 begin rotation. In the course of such rotation, the ratchet bars 44, being in engagement with the pins on the rear side of the double disks, it is obvious that such bars will be raised, and

through the medium of the rods 43, 43 the I.

tablets or bars 37, 37 will be pushed up to different heights according to the rotation of the particular double disks with which their particular ratchet bars may be engaged. Thus, through the medium of a till cover, the shaft 1, the train of gears, and the shaft 9, provided with lever arms 50, the pin disks 6 are operated and through them the ratchet bars 44, which in turn project upward, to the required distance, the tablets .37, 37 The several double disks 6, are held against backward rotation by en agement of the projected-pins with a notched pivoted and spring dog 51, see Fig. 15. The spring dogs 51, of which there is one attached to every disk 53, could be placed to ride over and engage the pins 5.betwcen the outer parts of the double disks 6. I, however, place them at the side so they will engage with the projected pins which are carried to them by the lever arms 50. By this-novel arran ement riction and noise are avoided. Upon further rotation of the disks through a subsequent operation, any pin projected therefrom is retracted, or pushed back, into its normal position by engagement with an inclined or cam surfaces 52; see Figs. 13 and- 15. On the side of disks 6 from' which the heads of pins 5 projectis arranged, as shown in Figs. 13, 14, 15, what may be termed a guide 53 the same serving as regards its lower portion to prevent accidental sliding of any of the pins 5 in the double disk. The upper portion 53 of this disk is set off laterally from the upper portion of each double or pin carrying disk, and in the space between these parts the levers or lever arms 50 are adapted to swing. The cam surfaces 52 before referred to are formed at the terminals of the segmental or set off portion 53* of the disk 53; thus in the operation of the keys, the pins 5 of the several disks 6 can be pro jected only so far as permitted by the set off or guard 53 and are guided back into their normal position in the course of the rotation fixed eccentrically in the side of the gear 36,

While its opposite end 54, is curved downward and .adapted to engage the bar 47 of the swinging frame, by which the ratchet 'bars are ad usted in'and out of engaging position. It will be seen that this locking device 54 is brought into action by the rotation of the gear 36 and that it begins to move with the rotation of the latter in the. operation of opening a till cover and rotating the in disks. In other words, by operation of gear 36, the slotted end of the lever 54 is raised and the outer curved end correspondingly depressed and thereby brought down into engagement with.the upper side of the bar 47,- whereby the latter is locked in the forward'position and consequently holds the ratchet bars 44 engaged with the pins of disk 6. It'is obvious that when the till cover is closed and the gears are rotated back to the position indicated in Figs. 3 and 5, the locking lever 54 is restored to the inactive position therein indicated.

1 In Fig. 3 I show a spiral spring 56 which is attached at its lower end to a transverse partition of-the casing and at its upper end eccentrically to the intermediate gear 35, on

the right of its axis. The springis under tension, and when on the right hand side of the axis of the gear itobviously tends. to hold the gearing in the normal or inactive I .position, and when, in the operation of the gearing, the upper end of the spring swings over to the left, it will act in the opposite direction, and in either case it steadies the operation of the earing and materially assists in the compIetion of the opening and closing of the till cover.

It has been before stated that the till cover, when once opened to any degree, must be completely opened before it can be re-' stored to the closed position. For this purpose I employa locking device, which, as shown in Fig.3, consists of a plate or bar 57 pivoted at 58, and its shank connected by a spiral spring 59 with the shaft 1,or' any other adjacent part. A segment of the gear 34 is roughened or serrated and one of the lateral prongs of the locking device 57, is

held engaged with such portion of the gear in the opening movement of the till cover and the other or right hand prong is held similarly engaged during the reverse move- The means can rotate, in the other direction.

ment. The prong 60 of the said device proj ects laterally from the plane of the two pawls or pawl points, and is thus adapted to be struck by wipers or cams 61-62 attachedto the side of the gear 34. Thus, as will be understood by further reference to Fig. 3, the double pawl or locking device 57 is engaged with the gear 34 in-such manner that the roughened portion of the latter may slide over the left hand prong while the till cover is being opened, and it will remain so engaged until the cam or wiper 62 comes 4 in contact with the lateral prong 60 of said device and thereby shifts the latter on its pivot 58 into the opposite position in which its right hand prong will engage the gear 34; 'hence when the gear rotates back the cam or gear 61 will similarly engage the lateral prong 60 and again restore the de vice 57 to the position indicated in Fig. 3.

In other words, the locking device reverses its position automatically with the movement of the gear in one direction and then the other, and looks with it in both cases so that the gear must be rotated far enough to bring the cam 61 or cam 62 into engagement with it in order to release the gearin so it the rotation of the gearing thus caused by opening the till cover, it is expedient to prepare for automatically locking the segment lever in the position indicated in Fig. 3, that is to say, in engagement with all the key-locking bars '11. For this purpose I employ a bar 63see Figs. 3 and5, which is pivoted centrally to the adjacent partition of the casing and its lower end .slotted to engage a pin or stud 64 on the face of-the lower gear 34. The up erend of this looking bar 63 is located a ittle to the right of the lower end of the head of segment lever 7. 4 The latter is therefore free to move to the position indicated in Fig. 5; but when the till cover is opened after the segment lever has been' released and automatically restored to'its position, Fig. 3, the upper end 'of bar 63 begins to move .to. the left by-reason of the rotation of. the gear 34 carrying its lower end in the opposite direction. Thus the bar 63 looks the segment lever prac tically during almost the entire period of the till cover remains-open.

The operation of one of the three initial keys which releases the segment lever from looking enga ement with the key-locking bars 11 also efiects another operation, to wit,

uring -first operation of the gears, and while the it pulls down a box -'like. shutter 65see I Figs.'3, 5 and 16-which surrounds and car rice or guides all the tablets or inscribed bars 37 and 37 It is oblong and rectangular in cross section-Fig. l6and slides freely within the rectangular top portion of the casing and is provided with slots adapted to register with the slots 38 of said casing.

number characters will then appear through 72 that are inscribed with numerals from 9 Spiral springs 66 and 66-see Figs. 3 and 6support the shutter 65 at normal height. The shutter is drawn down against tension of said springs when the segment lever is moved to unlocking position. To this end a i slotted bar or link 68 connects the lever with the arm 67 of a-rotatablehorizontal shaft 67 haying two other corresponding lever arms 67 thatare connected with the lower portion of the shutter at its ends. Thus parts 67, 67 and 67 constitute practically a double elbow lever. Upon moving the segment lever to the position indicated in Fig.

5, this elbow leverpulls down the shutter as there indicated and the arm 67 locks with a spring catch 69 so that the shutter is held down even-after the segment lever has been restored to the locking position, and until the said catch is released by rotation of the gear 36. For this purpose the other end of the catch is connected by a chain or wire 70 with the said gear, and the chain is not under tension so as to pull down the spring catch 69 until the gear has rotated far enough to eflect the required rotation of the pin disks 6 and the setting of the tablets in the position required to indicate the transaction, and the amount of a sale, etc.

In further explanation of the operation of theshutter, I will state that the several sliding bars or tablets .37 and 37 which as will be understood, bear numerals from zero to 9 inclusive, are normally so held that only zeros are visible through coincident slots of the.shutter and the casing; but when one of the initial keys is operated, the shutter is immediately drawn down so as to conceal the movement of the slides or tablets while returning'to their normalposition and until the required numbers have been set in position, and then, the shutter being released automatically 'as before indicated,-it will be retracted by the springs 66 and 66 to normal position, and the required numerals or the slots'on four different sides of the casing so that the number may be seen or read from any portion of the room in which the machine is located. The amounts received and indicated by the machine are registered by mechanism now to be described and the amounts thus registered are visible through the slot 71 in the casingsee Figs. 1, 2 and 6. There are four sets of adding wheels, as will be seen by' reference to Figs. 2 and 10. Each set is composed of four notched wheels to 0, also a larger notched wheel 7 3 that engages pins 5 of the double disks 6, and three notched carrying wheels 74.. Each of the wheels referred to has ten notches and the carrying wheels 74, which are provided with a spring detainer 75, are arranged on ashaft 7 6 (see Fig. 10) so as to engage lugs 77 (see Figs. 8 and 10) on wheels 72. The latter are mounted rotatably on hubs 78 which are in turn mounted immovably on the square shaft 79 thatextends parallel to the aforesaid shat't 76. In- Fig. 10 the large notched wheel 73 is shown engaged with pins of one of the double disks, and as this wheel 73 rotates, it carries the smaller notched and inscribed disk 7 2 with it through the medium of a pawl 7 3 shown in Figs. 6 and 7, and complete rotation of the disk 72 will in turn move the carrying wheel 7 4: one notch. It is obvious that by this operation, the units wheel when completely rotated will move the tens wheel one notch, and the tens wheel when rotated will move the hundredths wheel the'same distance, and so on. Each of the four sets of adding and registering mechanisms 'here described operates inde-- pendently of the others; and at the .close of business, the amounts separately indicated by these mechanisms or sets of adding wheels, are to be added together to find the grand total of the cash receipts for the day. It may beobserved in this connection that the units of the cents wheel are inscribed with the same numbers as the units of dollars wheel, and the tens of cents wheel and: the tens of the dollar wheel are also alike. At the close of business it is of courserequisite, after the amount registered shall have been taken 0E or separately recorded, that the several adding wheels shall be restored to zero, and for this purpose a suitable key is applied to the end of a squared shaft 79, which is accessibleat the right hand end of the machine (see Fig. 29) where such shaft is provided with a catch that engages a pivoted, automatic locking-dog 80. In this operation of the shaft 79, see Figs. 6 and 9, a dog 81 attached to the hubs 78 of the rotatable disks engages a lug 82, see Fig. 8. formed on the side of each of the inscribed or registering disks 72, and thus carries them around to the zero position.

The money or amount keys have been generally indicated heretofore by the numeral 2' and they have been described as shown in Fig. 22, as having two lugs 3 and 4:, in order that the operation of the machine might be understood in "a general way. It must be 115 now stated, that such construction and arrangement of cams is employed only on such. key as is adapted to be rotated for acting on pins on both sides of it. In Figs. 21 and 22 the cam 3 is thus adapted to act in either direction on the opposite pins. Thus when the left hand wing of the first double key is pushed down itwill act on the pin on the left, see 'Fig. 19'; and contrariwise, when the right hand wing of the left key is depressed, 12' the cam 3 will move in the opposite direction and thus act on the pin which is on the right. In this manner, one key does double service. In the case of the next double-wing key, indicating cents, its shank is shown pro-, 531) pin 5 of the adjacent double disk. The said JVlth but a single wing, which is arranged on the right, and the shank of such key is provided with a cam 3 which is arranged as shown in Fig. 21. 11 indicates a short bar which lies under and is supplemental to the sliding bars 11 before described. Its bent outer end engages a sector-shape plate 11'?, see Figs. 19 and 27, and the latter is in turn provided with a bent merely of sufficient width to engage a single arm 11 projects up on the left of the cam 3", see Fig. 19, and is thus always interposed between it and any coincident pin in the adjacent double disk 6. v The horizontal portion of the aforesaid bar 11 is provided with a slot 11' to receive the cam 4 of the keys in the fourth bank, see Figs. 19 and 19". These slots are so arranged that they extend on the right of the cams 4, and hence said cams will not move the bar 11 when turned to the right, but the bar will'be moved to the left when the cams are turned to the left. Slot 11 is simply to allow free action of the cams 4 of the bank of keys to the right. Let it now be supposed that it is desired to register 85 cents, the salesman depresses the left wing of the 8th key on the 4th bank, which causes its cam 3 to operate on the 8th pin of the adjacent double disk on the left, see Fig. 19. Thus 80 cents are registered on or by that particular disk; but in this operation the cam 4 of the aforesaid key has drawn bar 11 to the left, and its bent end, through engagement with the sector-shape plate 11",

' carries the bracket or arm 11 against-the fifth pin in the adjacent cents disk, and thus projects the pin from the disk as before described. In this manner 85 cents will be registered by the operation of the one key. .It is obvious that when it is desired to register five cents it is only necessary to depress the wing of the corresponding key in the last or righthand bank, and that thelug of that key will then bear against the upturned end of the arm or bracket 11 and force laterally the fifth pin of the adjacent double disk. I

In order to avoid mistakes, and for other reasons, it is desirable that every customer shall receive a receipt for every cash purchase orthe memo. of any credit purchase. To this and other related ends, I have devised a printing mechanism whose operation is effected automatically whenever the ratchet bars 44 are raised by the pin-carrying double disks 6. As shown in Figs. 6 and 26, each of the six ratchet bars 44 is connected through the medium of a slotted bar or lever 82 with one of a series of concentric or nested shafts;

arm 11, which is,

thus one of the shafts trally, and. successively inclosed by other 1101- low shafts 84 as shown. The other ends of these several shafts 83, 84, are provided with lateral lever arms 85, as shown in Figs. 26 and 29. by long link .bars 86 withthe lever arms 87 of printing or type sectors 88 that are mount- 25. It is apparent that whenever any one of the several nested shafts 83, 84, is rotated, as necessarily occurs whenever a ratchet bar 44 is raised to adjust an indicating bar 37 or 37, as before described, The 'severalsectors 88 with which the said shafts are connected by lever arms 85 and 87 and the connecting bar respondingly, or as required, for purposes, as will now be described.

As indicated in Fig. 24 there are two cent sectors, two dollar sectors, and also two other sect0rS,'0ne for printing cash and other words denoting the character of a transaction, and the other for indicating the ini-.

having a spring-detainer 91 is arranged between the units and tens, and also between the-tens and hundredths of the three numbering wheels, so that when'the units wheel is turned a complete revolution, thetens wheel will be advanced a notch, and simi larly, when the tens \tion, the hundredths wheel will be advanced a'notch. Thus an automatic registration may be effected of the consecutive number 86, will be adjusted around'the shaft 89 corprinting i the year,

A carrying wheel 91,- see Figs-25 and 29,,

wheel makes a revolu- 83 is arranged cen- All the arms are in turn connected ed rotatably on a shaft 89; see Figs.'24 and of each sale made or a till opened. All these sectors and disks thus described printsimul taneously upon paper strips 92 and 93, as

wound. (see Fig. 29) upon a drum or shaft 29 and the other strip 93 upon a corresponding drum or shaft 93 and the two complete strips-are drawn off together and passed between a printing roller or drum 94 and a small pressure roller 95. The roller or drum 94 is provided with letters suitably arranged to form the name of the proprietor of the machine or any other matter that may be preferred, and the roller is inked from the adjacent roll 96 which is rovided with a suitable ink absorbing surfzice. From this primary printing roll 94 the two strips pass over guides 97, 98 and 99 and are then directed together horizontally beneath the sectors 58 and printing disks90 mounted on the shaft will now be described. The strip 92 'is alongside the narrow and 93.

pressed against the drum.

89, and thence pass between two guide rolls 100. The under strip 93 is wound upon a drum or spool 101 while the other-is in practice torn off and delivered to a customer and constitutes a receipt or memorandum for his purchase, etc.

At the point where the two strips pass beneath the printing sectors and disks, the former are slightly separated from them, and hence independent means are required .to bring them into contact with the printing media. This operation is effected by means of what may be termed a spring hammer 102, the'same consisting of a curved arm journaled upon a transverse shaft 103 which is provided with a lever arm 101- to whose free end a spiral spring 105 is attached. As shown in Fig. 29 this spring will normally hold the arm 104 in alinement with it, and, in such position, the hammer proper 102 is out of contact with the paper strips. A narrow carbon or inking ribbon 106-see Figs. 293l-is arranged to pass over and between the two paper strips 92, This endless ribbon 106 passes around an inking roller 107, and another inking roller 108 runs in contact with its outer side. Thence the ribbon runs over guide pulleys or rollers 109. It will now be apparent that if the spring hammer 102 be suitably operated, it will strike upon the lower paper strip 03 and force it upward together with the upper strip 92 and the ribbon 106, so that the upper portion of the carbon strip 106 will come into contact wit-h the sectors 88 and disks 90, whereby both paper strips 92, 93, will be printed, one directly and the other by transfer or impression.

The broader inking ribbon 110 located one 106, is arranged as shown in Figs. 29 and 30. In other words, such endless ribbon passes around the inking drum 111 and a pressure roller 112 is arranged adjacently for holding the ribbon The ribbon passes over rollers or antifriction guides 113, and between the paper strips 92-, 93, and over a horizontal fiat guide 114. Upon the upper strip 92 autographic memoranda of any desired character may be made by means of a pen or pencil, the guide 114 serving as a support or table during the operation. Both the rollers or drums 107 and 111 are mounted fast on their shafts, which being rotated, will obviously cause the two ribbons to travel in the direction of the arrows, as indicated respectively in Figs. 30 and 31. It now remains to indicate the means for producing this movement. also operating the spring hammer and winding on the lower paper strip 93.

The shaft 1 to which the till covers A, B, C. are attached and by which it is rotated, as has been already described, extends through the entire base of the machine beneath the printing mechanism on the ring with which it is operatively connected as will now be explained. Upon such shaft-a mutilated disk 116 is mounted to rotate with it. but the shaft is still free to slide lengthwise. see Fig. 29. The same has a peripheral extension to which a spring dog 116 is attached on the inner side, whose function will be presently described; it is obvious that this mutilated disk 116 will be turned with the shaft 1 inthe direction of the arrow.

whenever a till cover is opened. One. end of a long push bar 11T is pivoted eccentrically to the disk 116 and its upper end (see Figs. 25 and 29) is provided with a right angular slot 118 which receives a pin 11$) forming a lateral projection of the hammer arm 104. The pin is held normally in the head of the slot. 118 by means of a long curved spring 117" which is attached to push-bar 117 and its free end engages notches in the periphery of the units member of the consecutive numbering wheels 90. W hen the disk 116 is rotated the push-bar 117 is moved longitudinally and the pin 119 still engaging the shoulder of the slot. the spring hammer 102 will be brought down so that its adjacent arm 120 (see Fig. 24-) which is on the same shaft 103 with the hammer 1.02, will be engaged with a pivoted hook 121: see Figs. 24, 25 and The spring 105 will thus obviously be put under tension, and, upon release of the hammer, the contraction of the spring will cause the hammer to fiy upward instantaneously, so as to ett'ect the desired printing. The hammer 102 is faced with rubber to suitably relieve impact in striking. \Vhen the push-bar 11? thus sets the hammer 102, the spring pawl 117 pushes on the unit number wheel and rotates it one notch. The pivoted catch 121 is connected by a rod 122 with a pivoted trip 123. which is provided with aspring 121 that holds it normally in contact with a stop-pin 125. It will now be seen that when the m'uti' lated disk 116 is turned in the direction of the arrow (by opening of :1 till cover) its spring dog 116 will ride over and past the outer end of the pivoted trip 123 and into the position indicated by dotted lines Fig. 29; but when the reverse movement begins (caused by closing the till cover), such dog will act on the trip and thereby throw the spring catch out of engagement with the arm 120 of the spring hammer, and thus instantly release the latter so that it flies up and ef fects the printing operation. It is obvious that for this purpose the pin 110 of the hammer arm 104 must be dislodged or removed from the heel of the slot 118 in the push-bar 117. For this purpose I provide the latter with a cam 117 which is adapted to engage and ride over a bar or other fixed point 127, whereby the slotted end of the bar 117 is 

